EC:2.7.7.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Terminal deoxynucleotidyl transferase (TDT) is an unusual DNA polymerase that does not use template information to synthesize new strands of DNA. It is normally found in high concentration in thymus (50 u/10(8) cells) and in low concentration in bone marrow (less than 5 u/10(8)). We report TDT measurements in the marrow and/or peripheral blood of 51 adult patients, 28 of whom had leukaemia. TDT is present in very high levels (greater than 50 u/10(8) cells) in leukaemic lymphoblasts and in low levels in leukaemic myeloblasts (less than 9 u/10(8) cells). Of two patients who developed lymphosarcoma-cell leukaemia following treatment of poorly differentiated lymphocytic lymphoma, one had high and one low levels of TDT in the leukaemic blast cells. Leukaemic cells from three of seven patients with chronic myeloid leukaemia in blast crisis had TDT levels within the range expected of acute lymphoblastic rather than acute myeloid leukaemia. High TDT in leukaemic cells probably marks them as derivatives of lymphoid progenitor, thymic or pluripotential stem cells. Quantitative assay of TDT may provide information useful in classifying haematological neoplasms.
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PMID:Terminal deoxynucleotidyl transferase measurements in the differential diagnosis of adult leukaemias. 6 84

Terminal deoxynucleotidyltransferase is an enzyme which has been found to be associated with thymus cells, bone marrow cells, as well as leukocytes from patients with acute lymphoblastic leukemia and chronic myelocytic leukemia in blast crisis. We report here the purification of terminal deoxynucleotidyltransferase by an oligonucleotide affinity (oligo(dT)12-18 cellulose) column. By using a 35 to 70% (NH4)2SO4 cut, Sephacryl S200 column and an oligo(dT) cellulose column, terminal deoxynucleotidyltransferase has been purified from calf thymus cells to a specific activity of more than 8,500 units/mg of protein. The terminal deoxynucleotidyltransferase purified by this method contains no detectable DNA-dependent DNA polymerase or endonuclease activities. Furthermore, sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that the enzyme appears to be homogeneous, with two polypeptides corresponding to the two subunits alpha (10,000) and beta (23,000) of terminal deoxynucleotidyltransferase. These data indicate that oligo(dT)12-18 cellulose can be used as a rapid and selective affinity column for the purification of terminal deoxynucleotidyltransferase.
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PMID:Purification of terminal deoxynucleotidyltransferase by oligonucleotide affinity chromatography. 64 3

Terminal deoxynucleotidyl transferase (TdT) is a unique DNA polymerase which is only found in immature cells of lymphoid lineage (pre-T/pre-B). Because of this restricted distribution of TdT, biochemical and immunofluorescence techniques have been employed to determine the distribution of TdT phenotypes in human leukemias and lymphomas, showing high levels of TdT in approximately 95% of acute lymphoblastic leukemia (ALL) and lymphoblastic lymphoma (LBL), approximately 50% of patients with acute undifferentiated leukemia (AUL), approximately 10 of patients with acute nonlymphoblastic leukemia (ANLL), and approximately 30% of patients with chronic myeloid leukemia (CML) and other myeloproliferative (MPS) or myelodysplastic (MDS) syndromes in blast crisis. High levels of TdT activity are associated with a clinical response to remission inducing therapy with vincristine and prednisone in a high proportion of patients (50%-90%), irrespective of clinical and morphologic diagnosis. Preliminary studies furthermore suggest that TdT might serve as a sensitive indicator of subclinical disease in ALL in complete remission.
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PMID:Methods and clinical relevance of terminal deoxynucleotidyl transferase determination in leukemic cells. 694 40

Terminal deoxynucleotidyl transferase is a unique DNA polymerase that can carry out DNA synthesis on an initiator molecule in the absence of a template. The usefulness of this enzyme as a biological marker for following patients during treatment and remission has been suggested. The potential usefulness of this enzyme in predicting the onset of relapse before any morphological indications has been demonstrated in chronic myelogenous leukemia patients in blast phase of the disease. In order to be able to detect low levels of TdT activity especially during remission phase, we have used cell separation techniques which can enrich cell populations containing TdT activity. A number of cell separation techniques have been developed to separate different cell types. We have used the techniques of unit gravity sedimentation and free flow electrophoresis to achieve enrichment of TdT positive cell populations. Our results show that up to 20 fold enrichment of TdT activity in normal human bone marrow can be accomplished by using cell separation techniques. With the use of free flow electrophoresis, we have achieved enrichment of TdT positive cell populations from normal human bone marrow, cells from patients with acute lymphoblastic leukemia and chronic myelogenous leukemia in blast phase of the disease. No TdT positive cells were detected in patients with acute myelogenous leukemia. These cell separation techniques should prove to be useful in early detection of relapse in patients in remission.
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PMID:Enrichment of terminal deoxynucleotidyl transferase activity by cell separation. 698 Dec 92

The induced expression of multiple drug resistance (MDR)-associated genes as a direct response of tumor cells to antineoplastic drugs could be an important factor influencing the success of cancer chemotherapy. We investigated the effects of such compounds on mdr1/P-glycoprotein (P-gp) gene expression and drug sensitivities in the T-lymphoblastoid human cell line CCRF-CEM and MDR sublines. Thereby, we observed that actinomycin D or adriamycin administered at sublethal concentrations induced increases of mdr1 mRNA levels and resistance within 72 h. Furthermore, on leukemia cell samples collected before and after chemotherapy we checked by a complementary DNA polymerase chain reaction (cDNA-PCR) approach for similar alterations in the relative expression levels of the MDR-associated genes (a) mdr1/P-gp (b) mrp (MDR related protein), and (c) the topoisomerase II isoforms alpha and beta. We found a concomitant increase in mdr1 and mrp gene expression combined with a decreased expression of topoisomerase II alpha in the course of the second relapse of an acute lymphoblastic leukemia (ALL). This points to the emergence of at least three different MDR mechanisms in this type of leukemia unresponsive to chemotherapy. A chronic myeloid leukemia (CML) in blast crisis, however, showed combined increases in mdr1 (about 20-fold) and mrp (about four fold) gene expression after intense but unsuccessful chemotherapy over a 6-month period. Our results indicate the occurrence of induced resistance in vitro and in vivo and suggest a contribution of the newly identified ATP-binding cassette (ABC) transporter MRP in MDR.
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PMID:Drug-induced changes in the expression of MDR-associated genes: investigations on cultured cell lines and chemotherapeutically treated leukemias. 791 48

The purpose of this study was twofold: (1) to develop an optimized, reliable method for the flow cytometric analysis of the intranuclear DNA polymerase, terminal deoxynucleotidyl transferase (TdT) in acute myeloid leukemia, and (2) to establish the usefulness of a novel, fluorescein-isothiocyanate conjugated monoclonal anti-TdT antibody (HT-6) in double-fluorescence staining for surface antigens in the characterization of leukemic cells. Inclusion of an aldehyde blocking buffer in the staining protocol reduced background fluorescence sufficiently to allow for the detection of the low-level fluorescent TdT+ myeloblasts. When admixed to normal peripheral blood mononuclear cells, 0.4-0.5% of HLA-DR+ or myeloid surface antigen+, TdT+ double-stained myeloblasts could be reliably detected above background levels. Flow cytometric TdT measurements using the HT-6 antibody in 55 patients with TdT+ acute lymphocytic or myelocytic leukemia or blast crisis of chronic myelogenous leukemia were equal or superior to the results obtained with a mixture of monoclonal anti-TdT antibodies (anti-HTDT-Mix) and comparable to those obtained by the conventional slide method employing polyclonal rabbit anti-human TdT antiserum. This flow cytometric TdT determination in combination with surface antigen staining using a novel anti-TdT monoclonal antibody (HT-6) allows for the recognition of minimal leukemic blast cells during clinical remission in acute myeloid leukemia.
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PMID:Detection of terminal transferase in acute myeloid leukemia by flow cytometry. 792 95

Clofarabine [Clofarex] is a purine nucleoside in development with Bio-envision, the Southern Research Institute and ILEX Oncology as an anticancer agent. Clofarabine's nucleoside structure is such that both the purine and ribose rings are halogenated, which allows it to inhibit DNA synthesis at two critical junctures: DNA polymerase I and RNA reductase. An intravenous infusion and an oral formulation are undergoing clinical development. Clofarabine was originated by the Southern Research Institute. In August 1998 Bioenvision signed a co-development agreement with the Southern Research Institute, under which it obtained the right to manufacture, market and distribute clofarabine worldwide, except Japan and Southeast Asia. In addition, the company appears to have licensed rights from the Institute that cover the development and marketing of other purine nucleoside analogues that have relevance in the treatment of leukaemia and lymphoma. Bioenvision will pay royalties to the Southern Research Institute for sales of clofarabine. Bioenvision extended its option in May 2004 to manufacture, market and distribute clofarabine in Japan and Southeast Asia, and is seeking a co-marketing partner to convert the option into a license agreement following the terms agreed upon between Bioenvision and the Southern Research Institute. Bioenvision and ILEX Products (a wholly owned subsidiary of ILEX Oncology) signed an agreement in February 2004 that converted ILEX's option (agreed in March 2001) to market and distribute clofarabine in the US and Canada. As part of the deal, Bioenvision received a $US3.5 million payment from ILEX in December 2003. In March 2004, Genzyme Corporation announced that it had signed a merger agreement with ILEX Oncology under which ILEX shareholders will receive shares of Genzyme common stock valued at approximately $US1 billion in equity value. Genzyme's business combination with ILEX is expected to be completed by the middle of 2004, Genzyme will, therefore, acquire a considerable boost to its product portfolio. Bioenvision obtained the exclusive option from the Southern Research Institute in September 2003 to manufacture, market and distribute clofarabine in Japan and Southeast Asia. Bioenvision stated it was actively seeking a co-marketing partner to convert this option into a license. Bioenvision announced in June 2003 that it had formed two separate agreements with Ferro Pfanstiehl Laboratories. The agreements cover worldwide development and supply of clofarabine, excluding the US and Canada. Ferro Pfanstiehl has more than 25 years of experience in potent compound manufacturing. The US FDA granted clofarabine fast-track designation for the treatment of refractory or relapsed acute lymphoblastic leukaemia in children in September 2003. Clofarabine has also been granted orphan drug status by the US FDA for the treatment of adult and paediatric patients with acute lymphocytic leukaemia (ALL) or acute myeloid leukaemia (AML). In December 2001, clofarabine was granted orphan drug status in the EU for the treatment of adult and paediatric patients with ALL. A single-agent phase II study has been completed in patients with acute leukaemia and myelodysplastic syndromes. Results of a phase II study of clofarabine in the treatment of acute myelogenous leukaemia in older adults who are not considered suitable for intensive chemotherapy have been very positive, with a 64% response rate in these patients being reported. In May 2004, Bioenvision announced that it had decided to stop enrollment at 25 evaluable patients (initially anticipated to be approximately 37 patients) because of the encouraging interim results. It said the trial would conclude earlier than expected and be completed by the end of June 2004. The pivotal trial will enroll approximately 65 patients with AML considered unsuitable for intensive chemotherapy. Bioenvision currently has phase II trials ongoing in adult and paediatric patients with acute leukaemia and chronic lymphocytic leukaemia (CLL). In addition, Bioenvision-sponsored phase I/II clinical trials of clofarabine in patients with CLL and non-Hodgkin's lymphoma are underway in Europe. In July 2002, ILEX began two US multicentre, open-label, phase II trials in children with relapsed or refractory AML or ALL. Children enrolled in the studies receive an intravenous infusion of clofarabine over 2 hours for five consecutive days every 2-6 weeks. In June 2003, at the 39th Annual Meeting of the American Society of Clinical Oncology (ASCO-2003), an overall response rate of 28% was reported for clofarabine therapy in heavily pretreated children with acute leukaemia. In September 2003, a multicentre European phase II trial (BIOV-111) was initiated in children with relapsed/refractory ALL. In December 2003, the first of 65 patients received treatment. As part of the global development programme, Bioenvision and ILEX are also conducting a phase II study in adult patients with AML. The companies are planning to investigate the potential use of clofarabine in combination with DNA-damaging agents, because clofarabine has been shown to inhibit DNA repair and may, therefore, potentiate the effects of DNA damaging drugs. A phase I/II trial of clofarabine in combination with cytarabine (Ara-C) in adult patients with first relapse AML, ALL, CML blast crisis and myelodysplastic syndrome was initiated at the University of Texas MD Anderson Cancer Centre in October 2002. Clofarabine has completed US phase I trials, and has reported favourable results in patients with leukaemia and solid tumours, including breast, colorectal and prostate cancers. A phase I/II trial in patients with solid tumours was initiated in July 2002. In addition, ILEX said it intended to develop an oral formulation of clofarabine for the treatment of colorectal cancer.
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PMID:Clofarabine. 1523 Jun 27